The syntheses, crystal structures, magnetic properties, CVs and OTTLE analysis of a series of new trinuclear symmetric heterometal string complexes stabilized by four dipyridylamide (dap) ligands, [NiPdNi(dpa)4X2] (X=Cl,NCS; dpa= the anion of dipyridylamino) and [NiPtNi(dpa)4Cl2] are reported. X-ray structural analyses show that compounds exhibit an approximate D4 symmetry and a linear metal framework, axial ligands are bonded to both side of Ni ion, and the outer Ni ions in square-pyramidal (NiL4X) environment, and the center Pd/Pt ions in square-planar environment. The trinuclear linear metal chain is helically wrapped by four all syn type ligands, the structural pattern observed in most M3(dpa)4X2 complexes. The magnetic susceptibility of [NiPdNi(dpa)4X2] complexes are interprted in terms of antiferromagnetic interaction (J = -175.3 cm-1 for X=Cl and J = -188.0 cm-1 for X=NCS within the framework of the Heisenberg) between the Ni(II) magnetic centers, relatively weaker than homotrinuclear complexes[Ni3(dpa)4X2] . The property is at variance of [NiPtNi(dpa)4Cl2], for which a relatively strong antiferromagnetic interaction (J = -298.0 cm-1). The results for the the decrease of the magnetic interaction from [Ni3(dpa)4Cl2] to [NiPdNi(dpa)4Cl2] and increase from [NiPdNi(dpa)4Cl2] to [NiPtNi(dpa)4Cl2] assign we should simultaneously consider the two main mechanisims of the exchange interaction, a spin polarized process along the metal dz2 and the super exchange involving the metal-N (dx2-y2-p) bond, since the electronic configuration of Ni(II) magnetic centers are d8 high spin, indicate both dz2 and dx2-y2 orbitals have unpair electron. In the CV analysis, the complex has a good reversible redox property and a pair of reversible redox couples in oxidation state, and show the vanishing of the absorption peak tested by OTTLE, also represent the good redox property once again verified by the high response rate .